2 edition of An integrated structure and scaling methodology for severe accident technical issue resolution found in the catalog.
An integrated structure and scaling methodology for severe accident technical issue resolution
by Division of Systems Research, Office of Nuclear Regulatory Research, U.S. Nuclear Regulatory Commission in Washington, DC
Written in English
|Statement||prepared by Technical Program Group.|
|Contributions||EG & G Idaho. Technical Program Group., U.S. Nuclear Regulatory Commission. Office of Nuclear Regulatory Research. Division of Systems Research., Idaho National Engineering Laboratory., EG & G Idaho.|
|The Physical Object|
|Pagination||xxxxv, 204,  p.|
|Number of Pages||420|
Today’s DRAMs use a buried channel array transistor (B-CAT) structure and a bulky finFET active structure. Making the transistor is hard, but scaling the capacitor is the biggest challenge in DRAM production. The capacitor, which is hollow in the initial phases, is a vertical, cylindrical-like structure. The use of an object-based image analysis (OBIA) method has recently become quite common for classifying high-resolution remote-sensed images. However, despite OBIA’s segmentation being equally useful for analysing medium-resolution images, it is not used for them as often.
AIS is the next step in the continual evolution of traumatic injury classification and scaling. This newest revision improves brain injury coding, spinal cord impairment coding and enhances many code definitions by incorporating current and appropriate medical terminology. Method of rank order: Under this method of comparative scaling, the respondents are asked to rank their choices. This method is easier and faster than the method of paired comparisons stated above. For example, with 10 items it takes 45 pair comparisons to complete the task, whereas the method of rank order simply requires ranking of 10 items only.
Incident management is paramount to the success of any modern ITOps r, much like growing a business, scaling incident management can also trigger growing pains. As the landscape of devices, applications, and systems grows — each requiring monitoring — so too, does the alert noise and complexity around management for on-call staff. With an increasing number of . Scaling is the most important aspect of every physical theory. If scaling is not understood, the theory itself is not under stood. Thus it is not surprising that the question of scaling has occupied a central position in many problems of physics and engineering. The problem of scaling acquired a promi.
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The Technical Program Group recognized that the Severe Accident Scaling Methodology was an integral part of a larger structure for technical issue resolution and, therefore, found the need to define and document this larger structure, the Integrated Structure for Technical Issue Resolution (ISTIR).Cited by: An integrated structure and scaling methodology for severe accident technical issue resolution [microform]: draft report for comment / prepared by Technical Program Group Division of Systems Research, Office of Nuclear Regulatory Research, U.S.
Nuclear Regulatory Commission Washington, DC Australian/Harvard Citation. EG & G Idaho. An integrated structure and scaling methodology for severe accident technical issue resolution [microform]: draft report for comment.
Responsibility prepared by Technical Program Group. Imprint Washington, DC: Division of Systems Research, Office of Nuclear Regulatory Research, U.S. Nuclear Regulatory Commission, Get this from a library. An integrated structure and scaling methodology for severe accident technical issue resolution: draft report for comment.
[EG & G Idaho. Technical Program Group.; U.S. Nuclear Regulatory Commission. Office of Nuclear Regulatory Research. Division of Systems Research.; Idaho National Engineering Laboratory.; EG & G Idaho.;]. “An integrated structure and scaling methodology for severe accident technical issue resolution: development of methodology,” Nuclear Engineering and Design, vol.
no. pp. 1–21, View at: Google ScholarCited by: 1. Appendix D of An Integrated Structure and Scaling Methodology for Severe Accident Technical Issue Resolution,” U. Nuclear Regulatory Commission, Washington, DC, Report No. An integrated structure and scaling methodology for severe accident technical issue resolution: development of methodology Nucl.
Eng. Des., (), pp. Google Scholar. reactor dynamics, containment analysis, severe accident analysis and other areas included in the scope of analyses and computation to support the SARs. Section 3 describes the use of advanced methods for various transient and accident analyses to be included in the SARs.
The special emphasis is on describing the methods which. Resolution of Generic Safety Issue Steam Generator Tube Leaks or Ruptures Concurrent with Containment Bypass from Main Steam Line or Feedwater Line Breaches NUREG Safety Evaluation Report Related to the License Renewal of Vogtle Electric Generating Plant, Units 1 and 2.
known that each structure, small as orifice plate or big size as a bridge, has a natural frequency which depends on its physical and engineering settings.
As the vibration of the flow has same frequency, a severe impact on the structure will be carried out which is accompanied by flowing big force (energy) to the structure.
This force is. “An Integrated Structure and Scaling Methodology for Severe Accident Technical Issue Resolution,” NUREG/CR View at: Google Scholar N. Zuber, “Appendix D: Hierarchical, Two-Tiered Scaling Analysis,” An Integrated Structure and Scaling Methodology for Severe Accident Technical Issue Resolution, U.S Nuclear Regulatory Commission.
A Framework for Re-examining Accident Reports to Support Interaction Design Processes A. Bruseberg, I. Solodilova, R. Hourizi and P. Johnson, University of Bath, UK. Interactive Evidence: New Ways To Present Accident Investigation Information D.
Schofield, J. Noond, L. Goodwin and J. March, University of Nottingham, UK.1 Tea. and technical results in nuclear fusion research and development through its series of Fusion Energy Conferences. The 26th IAEA Fusion Energy Conference (FEC ) aims to provide a forum for the discussion of key physics and technology issues as well as innovative concepts of direct relevance to the use of nuclear fusion as a source of energy.
Integrated Data Dictionary (cont.) Exclude variables that are in too few studies to be usable in integrated analyses. Consider converting to CDISC structure, if available for the particular domain (e.g., AE, Vitals, Labs, ECG).
reference: Example: Current structure for vital signs - 1 record per subject per visit. The projects belong to five different sponsors.
To overcome the scale issue, IFC and its partners came up with a novel solution, aggregating the first seven of these 12 projects into a single financing program, with a simplified and standardized financing structure.
Project Scaling Methodology Performing organizations often will identify a project’s size or scale based upon a variety of internally identified attributes.
Two commonly used attributes are cost (budget) and duration (schedule). For example, one organization may identify a project as small if the project has a budget less than US$50, Scaling challenges nearly always come down to the same problem: the difficulty of spreading something good from those who have it to those that don’t – or at least don’t yet.
It is always. 5 Scope The study on “Problems and Solutions in the Implementation of Safety Management System” has a wider scope of aviation safety with respect to safe operations of airlines, airports and related agencies.
Ultimately the safe operations leads to a safe environment free from any hazard or risks for all associated with aviation and. Enterprise Risk Management — Integrated Framework Page Content The Framework defines essential enterprise risk management components, discusses key ERM principles and concepts, suggests a common ERM language, and provides clear direction and guidance for enterprise risk management.
Failures and the Law Structural Failure, Product Liability and Technical Insurance 5. 42; Failures and the Law Structural Failure, Product Liability. Structural mechanics research is needed to develop analytical methods to predict the residual strength of a thin-sheet stiffened shell structure with fatigue cracks or damage caused by an in-flight accident.
Structural analysis methods are needed to evaluate the damage tolerance of aircraft for MSD and MED and to provide a basis for assessing.Disaster: An occurrence of a natural catastrophe, technological accident, or human-caused event that has resulted in severe property damage, deaths, and/or multiple injuries.
Drill: A type of operations-based exercise that is a coordinated, supervised activity usually employed to test a single specific operation or function in a single agency.vides discussion on simulation methodology and computational approaches used.
Section 3 describes initial scalability and perfor-mance studies and shows that the stencil parts of the boiler simula-tion scale up to K CPU cores on Mira. A major challenge that is revealed is the scaling .